NGX6基因对人结肠癌细胞HT-29细胞周期的影响

NGX6基因是新克隆的候选抑瘤基因,研究表明NGX6重表达可抑制结肠癌细胞的增殖.为进一步研究NGX6对细胞周期的影响,采用流式细胞仪检测NGX6重表达对结肠癌细胞HT-29细胞周期的影响,发现NGX6重表达可增加HT-29细胞在G0/G1期的分布比例,减少了S,G2,M期细胞数.利用蛋白质印迹和流式细胞术分析NGX6转染前后HT-29细胞周期素(cyclins)和细胞周期素依赖性蛋白激酶抑制物(cyclin-dependentkinaseinhibitor,CKI)的表达变化,发现NGX6可下调HT-29细胞中cyclinE、cyclinD1的表达及上调p27的表达,对cyclinA和cyclinB的表达无明显影响,p16在三组结肠癌细胞中均无表达.研究结果表明,NGX6在HT-29细胞中通过下调cyclinE、cyclinD1和上调p27的表达,阻滞细胞周期于G0/G1期,从而发挥其在结肠癌中的抑瘤作用.     

曲古抑菌素A（TSA）对骨肉瘤细胞株143B增殖和凋亡的作用及其机制

观察曲古抑菌素A（TSA）对骨肉瘤细胞株143B增殖及凋亡的作用,并探讨其机制。TSA与p38抑制剂（SB203580,3μmol／L）及JNK抑制剂（SP600125,0．5μmol／L）单独或同时处理143B细胞,分别以MTT、台盼蓝染色、流式细胞术和JC—1（测定线粒体跨膜电位）法检,TSA对143B细胞的增殖、存活、周期以及凋亡的影响。应用RT-PCR、Westernblot检测Bax、Bcl．2、p38／JNK表达。结果显示,TsA能够以时间和剂量依赖方式抑制143B细胞增殖,使细胞周期阻滞于GdG。与G2／M期,并能诱导143B细胞凋亡,引起线粒体膜电位降低,促凋亡蛋白Bax表达上调,抑凋亡蛋白Bcl．2表达下调,同时使p38／ⅢK活化增加。p38／JNK4检测剂则能逆转TSA对Bax／Bcl．2的上调及抑制作用。研究结果揭示,TSA可以时间剂量依赖方式抑制143BN胞增殖,阻滞细胞周期,诱导细胞凋亡;其诱导细胞凋亡的机制可能与活化MAPK通路中p38和JNK的活性从而激发线粒体凋亡通路有关。     

槲皮素对结肠癌细胞生长的影响

通过MTT试验观察槲皮素对结肠癌细胞系RKO生长的影响;通过流式细胞仪技术观察槲皮素对细胞周期和细胞凋亡的影响;采用RT-PCR和western印迹技术,确定槲皮素对p21、p27和p53表达的影响.MTT法显示槲皮素加药组生长抑制作用明显,且具有剂量依赖性;流式细胞仪分析结果显示,经5μmol/L槲皮素作用后细胞周期明显阻滞在G0/G1期;5、10、20μmol/L3个剂量组的细胞凋亡率分别为23.4%、24.2%、47.9%,而对照组为13.2%;p21和p27的mRNA及蛋白质表达水平上调,促凋亡蛋白p53表达水平上调.因此,槲皮素对RKO生长有明显的抑制作用,槲皮素可能通过上调p21和p27表达使RKO细胞周期阻滞于G0/G1期,可能通过上调促凋亡蛋白p53表达诱导RKO细胞发生凋亡.     

莪术醇诱导人肝癌HepG2细胞衰老及其机制研究

为进一步探讨莪术醇的诱导细胞衰老的机制,该研究采用荧光定量PCR技术对莪术醇处理后细胞中81个细胞衰老相关基因差异表达谱进行分析,结果发现TP53及其下游基因p16Ink4a、p21Waf1/Cip1和p27Kip1等的表达水平显著升高,伴随ABL1、ALDH1A3、CHEK2、HRAS、PTEN等多个衰老信号通路启动与效应关联基因的转录显著增强,而CyclinA2、IGFBP3、SIRT1以及TERT等细胞周期进程与衰老信号通路的负性调控基因的表达水平则显著降低。Western印迹检测结果显示,p53及其下游周期素依赖性蛋白激酶抑制物(CKI)分子p21WAF1和p16INK4水平升高,CyclinA2水平降低,与PCR结果一致,并伴野生型p53-诱导的蛋白磷酸酶1(Wip1)水平显著增高,提示莪术醇可能通过激活p53信号通路诱导HepG2细胞衰老。该研究进一步发现莪术醇能够诱导HepG2细胞发生衰老表型改变,伴G0/G1期周期阻滞。     

CDK1 siRNA干扰在Taxol诱导细胞凋亡中的作用

目的研究转染细胞周期依赖性蛋白激酶1（cyclin．dependent kinase1,CDK1）siRNA、以及转染后进行凋亡刺激对细胞周期和凋亡的影响,探讨CDK1在细胞凋亡中的确切作用,揭示细胞周期与细胞凋亡协调的分子机制。方法以人宫颈癌细胞株HeLa细胞为研究对象,脂质体转染CDK1siRNA,转染后48h加紫杉醇（Tax01）（20μg／m1）刺激凋亡,Western印迹检测CDK1和抗凋亡蛋白BCL2表达,AnnexinV／PI法检测细胞的凋亡,流式细胞仪分析DNA含量检测细胞周期。结果转染CDK1 siRNA后,CDK1蛋白的表达下降,细胞周期G2／M期比例增加,细胞凋亡率与对照相比没有明显升高。只加Taxol刺激12h后细胞凋亡率增加并伴有S期和G2／M期比例增加。转染CDKlsiRNA后再用Taxol刺激,其细胞凋亡率没有明显改变,G2／M期阻滞效应也没有叠加。BCL2蛋白只在加Taxol刺激组表达下降,与CDK1表达减少没有相关性。结论siRNA沉默导致的CDK1表达降低只导致细胞周期G2／M期阻滞,没有引起细胞凋亡;CDK1的表达降低对紫杉醇所诱导的细胞周期阻滞和细胞凋亡效应没有明显影响。     

核基质蛋白Ciz1与肿瘤北大核心CSCD

核基质蛋白Ciz1(Cdkn1A-interacting zinc finger protein 1)是在酵母双杂交系统中寻找能与p21Cip1/Waf1结合并调节其细胞核定位时发现的锌指蛋白。当分别过表达Ciz1和p21Cip1/Waf1时,它们均主要定位于细胞核,而当共转染时,则均从细胞核转位到细胞质。在小鼠3T3细胞中,Ciz1可以协同CDK2、细胞周期蛋白E和细胞周期蛋白A启动DNA的复制,并促进细胞由G1期进入S期。此外,Ciz1还具有结合DNA的能力并参与对转录因子的活性调控,同时,Ciz1还可能作为蛋白激酶ATM的底物参与DNA的损伤修复。近年来研究发现,Ciz1除与阿尔茨海默病和肌张力失常等疾病相关以外,还在肺癌、结肠癌和乳腺癌等多种肿瘤组织中呈现高表达,参与肿瘤的发生和发展过程。本文主要就Ciz1的结构功能及与肿瘤的关系作一综述。     

塞来昔布诱导HCT-116结肠癌细胞G2/M阻滞

目的:研究选择性COX-2抑制剂塞来昔布诱导结肠癌细胞株HCT-116细胞周期阻滞的作用及其可能的机制。方法:应用流式细胞仪检测塞来昔布对HCT-116细胞周期的影响,定量PCR检测细胞周期素cyclinB1及COX-2 mRNA表达水平,Western-Blot检测细胞周期素cyclinB1的蛋白水平。结果:塞来昔布诱导HCT-116细胞G2/M阻滞的作用呈剂量依赖性,塞来昔布在mRNA及蛋白水平下调HCT-116细胞的cyclinB1。结论:塞来昔布能在体外抑制HCT-116细胞的增殖,诱导G2/M的阻滞,其作用与下调细胞周期素cyclinB1有关。     

乳杆菌DM9811发酵液提取物中RNA组分对人结肠癌细胞系HT-29增殖影响及分子机制研究

目的观察乳杆菌DM9811发酵液提取物中RNA组分对人结肠癌细胞系HT-29增殖的影响,探讨其对肠道肿瘤细胞的作用及其分子机制,为阐明乳杆菌与宿主相互作用规律的分子机制奠定基础。方法应用MTT方法研究不同时间不同浓度RNA组分对HT-29增殖的影响,应用流式细胞术、RT-PCR研究RNA组分对HT-29细胞周期的影响。结果乳杆菌DM9811发酵液中RNA组分能抑制HT-29细胞增殖,并呈现出时间-剂量依赖性;RNA组分作用于HT-29细胞24 h、48 h时,细胞周期G0/G1期所占比例明显上升,S期所占比例明显降低(P0.01),细胞周期调控因子CDK6、p27Kip1、p53的表达升高,CDK2、CDK4、PCNA的表达降低。结论乳杆菌DM9811代谢产物RNA在体外具有抑制癌细胞周期活性。     

DNA损伤反应中细胞周期检查点蛋白p27~(Kip1)表达及其调控机制

为了研究DNA损伤反应中p2 7Kip1的表达及其调控机制 ,应用免疫印迹的实验结果表明 :10Gy 60 Coγ射线照射后 3h ,HeLa细胞中p2 7Kip1蛋白水平开始下降并持续到 2 4h ,进而失去它对CDKs的抑制功能 .Northern印迹结果显示 ,电离辐射 (IR)对p2 7Kip1mRNA表达水平无明显影响 ,说明电离辐射诱导p2 7Kip1表达水平的降低主要与蛋白质降解相关 ,但其具体的调控机制还不清楚 .已知在G1—S期p2 7Kip1蛋白的降低主要依赖细胞周期蛋白E Cdk2激酶将其磷酸化后的泛素化蛋白酶体途径 (ubiquitin proteasomepathway) .酶动力学研究结果揭示 :电离辐射后细胞周期蛋白E Cdk2激酶活性增高 ,12h细胞周期蛋白E Cdk2激酶活性达到最大 .当在照前用细胞周期蛋白E Cdk2抑制剂olomoucine (10 μmol L)抑制细胞周期蛋白E Cdk2激酶活性时 ,p2 7Kip1蛋白表达水平增加 .此外 ,还观察到电离辐射可诱导p2 7Kip1泛素化水平的增高 ,而在使用蛋白酶体抑制剂MG 132 (5 μmol L)处理HeLa细胞后 ,可抑制辐射诱导p2 7Kip1蛋白水平的下调 .研究结果提示 :泛素化蛋白酶体途径参与了辐射诱导P2 7Kip1蛋白表达下调的降解机制 .     

曲古霉素A诱导人膀胱癌细胞周期阻滞和凋亡的研究

目的:探讨组蛋白去乙酰化酶抑制剂曲古霉素A(TSA)对人膀胱癌T24细胞周期和凋亡的影响。方法:以不同剂量TSA(0.1μM,0.3μM和1μM)处理T24细胞。采用MTT法检测细胞存活率,AnnexinV-PI染色检测细胞凋亡,流式细胞仪检测caspase-3活性,Western blot法检测P21蛋白表达。结果:TSA剂量依赖性降低膀胱癌细胞存活率,促进细胞凋亡,表现为AnnexinV阳性细胞明显增多,同时活化的caspase-3水平增高。TSA还可通过诱导膀胱癌细胞周期阻滞于G2/M期抑制细胞生长,且呈剂量依赖性。结论:TSA通过促进caspase-3激活诱导膀胱癌细胞凋亡,同时诱导细胞阻滞于G2/M期。     

1,25-Dihydroxycholecalciferol enhances butyrate-induced p21(Waf1/Cip1) expression

Butyrate, a short-chain fatty acid produced in the colon, as well as its prodrug tributyrin, reduce proliferation and increase differentiation of colon cancer cells. p21(Waf1/Cip1) and p27(Kip1) are negative regulators of cell cycle and are thought to have a key function in the differentiation of various cell lines. We studied the effects of butyrate on differentiation, VDR expression, as well as on p21(Waf1/Cip1) and p27(Kip1) expression in human colon cancer cells (Caco-2). Butyrate induced cell differentiation, which was further enhanced after addition of 1,25-dihydroxycholecalciferol. Synergistic effect of butyrate and dihydroxycholecalciferol in Caco-2 cells was due to butyrate-induced overexpression of VDR. While butyrate as well as dihydroxycholecalciferol increased p21(Waf1/Cip1) and p27(Kip1) expression, in contrast combined exposure of butyrate and dihydroxycholecalciferol resulted in a synergistic amplification of p21(Waf1/Cip1), but not of p27(Kip1) expression. These data imply that butyrate selectively increases p21(Waf1/Cip1) expression via upregulation of VDR in Caco-2 cells.     

Distinct HDACs regulate the transcriptional response of human cyclin-dependent kinase inhibitor genes to Trichostatin A and 1alpha,25-dihydroxyvitamin D3

The anti-proliferative effects of histone deacetylase (HDAC) inhibitors and 1alpha,25-dihydroxyvitamin D3 [1alpha,25(OH)2D3] converge via the interaction of un-liganded vitamin D receptor (VDR) with co-repressors recruiting multiprotein complexes containing HDACs and via the induction of cyclin-dependent kinase inhibitor (CDKI) genes of the INK4 and Cip/Kip family. We investigated the effects of the HDAC inhibitor Trichostatin A (TSA) and 1alpha,25(OH)2D3 on the proliferation and CDKI gene expression in malignant and non-malignant mammary epithelial cell lines. TSA induced the INK4-family genes p18 and p19, whereas the Cip/Kip family gene p21 was stimulated by 1alpha,25(OH)2D3. Chromatin immunoprecipitation and RNA inhibition assays showed that the co-repressor NCoR1 and some HDAC family members complexed un-liganded VDR and repressed the basal level of CDKI genes, but their role in regulating CDKI gene expression by TSA and 1alpha,25(OH)2D3 were contrary. HDAC3 and HDAC7 attenuated 1alpha,25(OH)2D3-dependent induction of the p21 gene, for which NCoR1 is essential. In contrast, TSA-mediated induction of the p18 gene was dependent on HDAC3 and HDAC4, but was opposed by NCoR1 and un-liganded VDR. This suggests that the attenuation of the response to TSA by NCoR1 or that to 1alpha,25(OH)2D3 by HDACs can be overcome by their combined application achieving maximal induction of anti-proliferative target genes.     

The role of p53 deacetylation in p21Waf1 regulation by laminar flow

Laminar flow arrests vascular endothelial cells at the G0/G1 phase with concurrent increase in p53 and p21Waf1. We investigated the molecular mechanism by which laminar flow activates p53 and p21Waf1 in endothelial cells. The application of a laminar flow (12 dyn/cm2) increased the deacetylation at Lys-320 and Lys-373 of p53 and the acetylation at Lys-382 in human umbilical vein endothelial cells. Laminar flow increased the activity of histone deacetylase (HDAC) and the association of p53 with HDAC1. Treating human umbilical vein endothelial cells with trichostatin A (TSA), an HDAC inhibitor, abolished the flow-induced p53 deacetylation at Lys-320 and Lys-373. To investigate the role of the HDAC-deacetylated p53 in the flow activation of p21Waf1, we found that TSA inhibited the activation at both the mRNA and protein levels. Deletion and mutation analyses of the p21Waf1 promoter revealed that flow activated p21Waf1 through p53 and TSA abrogated this p53-dependent activation. The expression plasmid encoding the p53 mutant, with Lys-320 and Lys-373 replaced by Arg, increased the activity of the co-transfected p21Waf1 promoter, which demonstrates that HDAC-deacetylated p53 can transactivate the p21Waf1 gene. The regulation of the p53-p21Waf1 pathway by laminar flow was further supported by observations that flow caused an increase of p21Waf1 level in the wild-type HCT116 (p53+/+) cells but not in the p53-null HCT116 cells.     

Upstream molecular signaling pathways of p27 (Kip1) expression: Effects of 4-hydroxytamoxifen,dexamethasone, and retinoic acids

Background  

p27(Kip1) is a cyclin-dependent kinase inhibitor that inhibits G1-to-S phase transition of the cell cycle. It is known that a relatively large number of nutritional and chemopreventive anti-cancer agents specifically up-regulate expression of p27 without directly affecting the expression of other G1-to-S phase cell cycle regulatory proteins including p21(Cip1Waf1). However, the upstream molecular signaling pathways of how these agents up-regulate the expression of p27 have not been well characterized. The objective of this study was to identify such pathways in human breast cancer cells in vitro using 4-hydroxytamoxifen, dexamethasone, and various retinoic acids as examples of such anti-cancer agents.     

Cyclin D2 induces proliferation of cardiac myocytes and represses hypertrophy

The myocytes of the adult mammalian heart are considered unable to divide. Instead, mitogens induce cardiomyocyte hypertrophy. We have investigated the effect of adenoviral overexpression of cyclin D2 on myocyte proliferation and morphology. Cardiomyocytes in culture were identified by established markers. Cyclin D2 induced DNA synthesis and proliferation of cardiomyocytes and impaired hypertrophy induced by angiotensin II and serum. At the molecular level, cyclin D2 activated CDK4/6 and lead to pRB phosphorylation and downregulation of the cell cycle inhibitors p21Waf1/Cip1 and p27Kip1. Expression of the CDK4/6 inhibitor p16 inhibited proliferation and cyclin D2 overexpressing myocytes became hypertrophic under such conditions. Inhibition of hypertrophy by cyclin D2 correlated with downregulation of p27Kip1. These data show that hypertrophy and proliferation are highly related processes and suggest that cardiomyocyte hypertrophy is due to low amounts of cell cycle activators unable to overcome the block imposed by cell cycle inhibitors. Cell cycle entry upon hypertrophy may be converted to cell division by increased expression of activators such as cyclin D2.